RU133687U1 - DEVICE FOR INCUBATION OF CAVIAR OF SALMON FISH IN NATURAL CONDITIONS - Google Patents

Abstract

1. A device for the incubation of salmon caviar in natural conditions, including a housing with an artificial incubation substrate in the form of a plate with holes with a perforated bottom, installed in the central part of the housing and dividing the housing space into the lower part - the sump and the upper part - a storage chamber with a hole for the exit of the larvae, characterized in that the casing is made in the form of a parallelepiped with a perforated conical nose, along the side walls of the casing there are rails for installation in them, with the ability to move along the hull, plates with perforated holes, while the hull is buried in the bottom of the river at an angle ά = 15-30.2. The device according to claim 1, characterized in that the hole for the exit of the larvae is 11-12 mm, and its lower edge is located at the bottom of the river. The device according to claim 1, characterized in that the body length is 30-50 cm. The device according to claim 1, characterized in that the perforation of the conical nose of the body is made with holes from 2 to 3.5 mm. The device according to claim 1, characterized in that the plate with holes is equipped with a removable protective casing.

Description

The utility model relates to fish farming and can be used for the artificial reproduction of salmon fish in natural conditions.

A device is known for incubating eggs in natural conditions (KL No. 99688, Cl. A01K 61/00, 2005), consisting of a cylindrical body, in the lower part of which holes are made from the front side, a perforated tray, a lid, a nozzle for the exit of larvae and artificial incubation substrate. The artificial incubation substrate is combined with a perforated tray and made in the form of a plate with holes fixed in the central part of the body at a distance of 20-30 mm from the cover and 20-30 mm from the lower edge of the body, dividing it into the upper storage chamber and sedimentation tank, while the plate made with a thickness equal to (2.2-2.4) d, the diameter of the hole is (1.8-2.2) d, the depth of the hole is (1.8-2.0) d, where d is the diameter of the eggs after fertilization and swelling, wherein the bottom of each well is perforated. The diameter of the cylindrical body is 200-250 mm, and the height of the device is 50-70 mm. The size of the holes of the perforation of the bottom of the holes is made in the range from 0.25 d to 0.50 d, where d is the diameter of the eggs after fertilization and swelling.

The disadvantage of this device is the possibility of overfilling the sediment trap with sediments, which leads to their deposition on the eggs, clogging of the ventilation holes, the termination of the washing of eggs and its death. During the flood period, an unplanned (non-projected) increase in the flow velocity in the bottom part of the flow is possible, which leads to a critical increase in the flow velocity in the device itself (in the wells). The same thing happens when installing the device in the ground. This can initiate the removal of eggs from the wells, and further from the device, if the flow rate exceeds a critical value. In addition, the plate is rigidly attached to the body, therefore, if necessary, control over the development of embryos should be removed from the soil the entire device.

Some of these disadvantages are eliminated in the device, which is the prototype of the claimed technical solution (RU No. 110229, Cl. A01K 61/00 (2006.01)). A device for the incubation of eggs under natural conditions, consisting of a cylindrical body, in the lower part of which a hole is formed on the front side. An artificial incubation substrate in the form of a plate with perforated holes is installed in the central part of the casing, dividing the casing space into the lower part - a settling tank, and the upper part - a storage chamber, the device also contains a lid and a nozzle for the exit of larvae. In addition, the device is equipped with a box with a perforated front wall installed in the soil in front of the housing upstream and connected through a hole with a flexible tube, while the housing is made with a continuous bottom.

The disadvantage of this device is the uneven distribution of flow rates over an artificial incubation substrate, which is why eggs develop in various hydraulic conditions. Part of the eggs can be in areas with low flow rates - insufficient oxygen will be supplied to them for life. In addition, these eggs can be covered with tiny particles of sediment, which leads to the death of embryos. In addition, in such devices, the exit of larvae is difficult due to the small size of the outlet pipe and the absence of guide devices.

The objective of the utility model is to develop the design of a device for incubating salmon caviar in natural conditions, providing stable and favorable hydraulic conditions for the development of embryos inside the device.

The technical result of the utility model is the ability to install the device in rivers with different hydrological conditions, including in flows with a high sediment content.

The task and the specified technical result is achieved by the fact that in a device for incubation of eggs under natural conditions, comprising a housing with an artificial incubation substrate in the form of a plate with holes having a perforated bottom, installed in the central part of the body and dividing the space of the body into the lower part, a sump, and the upper part is a storage chamber with an opening for the exit of larvae, according to a utility model, the casing is made in the form of a parallelepiped with a perforated conical nose, along the side guides for installation in them, with the possibility of moving along the case, plates with perforated holes, the case is buried in the bottom of the river at an angle ά = 15 ° -30 °. Moreover, the hole for the exit of the larvae is 11-12 mm, and its lower edge is located at the level of the bottom of the river. In addition, the body length is predominantly equal to 30 ÷ 50 cm. To protect eggs from river sediment while observing hydraulic conditions to ensure their favorable life activity, the perforation of the conical nose of the body is made with holes from 2 to 3.5 mm. And to protect the eggs during the installation of the plate in a stream of water in the body of the device, the plate with holes is equipped with a removable protective casing.

The execution of the casing in the form of a parallelepiped, allows you to make a rectangular plate and obtain a uniform distribution of flow velocities across the width of the incubation substrate, and the presence of guides located along the casing facilitate the location and fixing of the plate with holes in the casing of the device. The perforated conical nose of the body, buried in a pound, allows you to get clean, clear of sediment, under-stream water and direct it to the embryos. Soil particles should not penetrate the device through the perforation holes, therefore, the size of the perforation holes should be less than the size of the soil particles. If the size of the perforation hole is less than 2 mm, then the hydraulic resistance of the perforation increases sharply - in this case there will be unfavorable conditions inside the body and the water flow necessary for normal life of hydrobionts will not be provided. If the size of the perforation holes is more than 3.5 mm, soil particles may penetrate into the device, which can also lead to a decrease in the water entering the device. The installation angle of the device is determined based on the length of the housing, which varies from 35 to 50 cm. At this length of the housing, due to the slope of the river, the same hydraulic conditions are created in the cavities with eggs (the speed of flow around the eggs) as in natural nests. Installing the casing in the soil of the river at angles ά = 15 ° -30 ° allows you to get clean water through the front perforated part from the depth of placement of spawning nests formed during natural spawning. Moreover, the longer the casing, the smaller the angle of penetration of the casing into the ground (with the length of the casing 50 mm, the angle of deepening 15 °), and, conversely, with the casing length equal to 30 mm, the angle of deepening corresponds to 30 °. The execution of the outlet with a diameter of 11-12 mm due to the size of the larvae.

The utility model is illustrated by drawings, in which Fig. 1 shows a longitudinal section of a device, Fig. 2 shows a section along section I-I, Fig. 3 shows a cross section of a plate with a protective casing.

The device consists of a housing 1, made in the form of a parallelepiped with the front perforated conical nose 2. In this case, the size of the holes 3 of the perforated conical nose 2 should be smaller than the smallest particle size of the soil and correspond to 2 ÷ 3.5 mm. In the central part of the housing 1, guides 4 are placed along the side walls for mounting plates 5 (incubation substrate) with holes 6 with a perforated bottom 7, in which the eggs are located 8. Installation and movement of the plate 5 is carried out by the handle 9 attached to the plate 5. The plate 5 divides the casing 1 into two parts: the upper chamber 10 with the outlet 11 for the exit of the larvae with a size of 11-12 mm, and the bottom is the settler 12, in which sediment is suspended from the water. The upper surface of the casing 1 is a guide for the larvae to exit the larvae from the device, while the lower edge of the outlet 11 is located at the bottom of the river, facilitating the exit of the larvae into the river stream 13. The casing 1 is buried in the river bottom at an angle ά to the stream 13. the installation of the plate 5 with eggs 8 in the guides 4 of the housing 1, it is covered from above with a protective casing 14. All elements of the device are made of bioinert material.

The device operates as follows.

First of all, building 1 is placed in the soil of the river channel at an angle a to the river stream 13 so that the lowest point of the outlet 11 is at the bottom of the river. Next, in each well 6 of plate 5, one egg is placed 8. After filling with eggs 8 of all holes 6, plate 5 is covered with a protective casing 14. Next, plate 5 is placed in guides 4 of casing 1. When moving plate 5 in guides 4 inside casing 1, holes are opened 6 - the protective casing 14 remains behind the housing 1. Water of the under-stream stream 15 enters through the conical perforated part 2 under the perforated bottom 7 of the plate 5 and then through the wells 6, washing the eggs 8, enters the channel stream 13 through the outlet 11, taking out the products of activity of the embryos from the device.

The larvae hatching from 8 eggs are for some time located in the wells 6. Then they poke themselves with undulating movements of the body and tail from the holes onto the plate 5 into the storage chamber 10, where they lie on their sides, washed by streams of water.

Within 12-16 days, the larvae rise to "swim". When the yolk sac is resorbed and the swimming ability is manifested, the larvae begin to randomly move in the space of the storage chamber between the plate 5 and the upper part of the housing 1, while the latter, set at an angle ά, serves as a tactile reference. Having found the outlet 11, the larvae enter the river stream 13.

This device can be installed in the autumn before freezing, and can also be installed in winter (spring) time if there is ice on the river one at a time or in a group through a sawed lane. In this case, the housing can be used repeatedly.

The device for the incubation of eggs is currently at the stage of pilot tests in the Lizhma River (Republic of Karelia).

Claims (5)

1. A device for the incubation of salmon caviar in natural conditions, including a housing with an artificial incubation substrate in the form of a plate with holes with a perforated bottom, installed in the central part of the housing and dividing the housing space into the lower part - the sump and the upper part - a storage chamber with a hole for the exit of the larvae, characterized in that the casing is made in the form of a parallelepiped with a perforated conical nose, along the side walls of the casing there are rails for installation in them, with the ability to move along the hull, plates with perforated holes, while the hull is buried in the bottom of the river at an angle ά = 15-30 ^○ . 2. The device according to claim 1, characterized in that the hole for the exit of the larvae is 11-12 mm, and its lower edge is located at the bottom of the river. 3. The device according to claim 1, characterized in that the length of the housing is 30-50 cm. 4. The device according to claim 1, characterized in that the perforation of the conical nose of the body is made with holes from 2 to 3.5 mm 5. The device according to claim 1, characterized in that the plate with holes is equipped with a removable protective casing.

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